Outlines of Theoretical ChemistryLongmans, Green and Company, 1892 - 220 páginas |
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Página 6
... equal to the sum of the weights of the constituents . When several bodies act on each other , it was formerly a difficult matter to decide which were compounds and which were consti- tuents ; but by the light of this new law the ...
... equal to the sum of the weights of the constituents . When several bodies act on each other , it was formerly a difficult matter to decide which were compounds and which were consti- tuents ; but by the light of this new law the ...
Página 10
... equal number of copper and of oxygen atoms , then it must follow that the weights of the atoms of these two elements are in the same proportion to each other that the con- stituents are in the oxide - namely , as 1 : 3.959 . The copper ...
... equal number of copper and of oxygen atoms , then it must follow that the weights of the atoms of these two elements are in the same proportion to each other that the con- stituents are in the oxide - namely , as 1 : 3.959 . The copper ...
Página 22
... equal . This law applies without exception to all the malleable metals , to almost all the brittle metals , and to the majority of the non - metals . The following table contains in the first column the names of the elements , in the ...
... equal . This law applies without exception to all the malleable metals , to almost all the brittle metals , and to the majority of the non - metals . The following table contains in the first column the names of the elements , in the ...
Página 25
... holds good for elements in the state of combination . The specific heat of a compound in the solid ' Calculated by interpolation from the observations . At 233 ° c = 0 · 366 . state is approximately equal to the sum of the specific.
... holds good for elements in the state of combination . The specific heat of a compound in the solid ' Calculated by interpolation from the observations . At 233 ° c = 0 · 366 . state is approximately equal to the sum of the specific.
Página 26
Lothar Meyer. state is approximately equal to the sum of the specific heats of its constituents . In the case of silver iodide , for example , we have- Silver Iodine · A.c · A.c 107 · 66 × 0 · 056 = 6 · 1 126 · 54 × 0 · 054 = 6 · 8 Total ...
Lothar Meyer. state is approximately equal to the sum of the specific heats of its constituents . In the case of silver iodide , for example , we have- Silver Iodine · A.c · A.c 107 · 66 × 0 · 056 = 6 · 1 126 · 54 × 0 · 054 = 6 · 8 Total ...
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Términos y frases comunes
affinities alcohol amount anion atom of hydrogen atomic heats atomic linking atomic volume atomic weights Avogadro's law benzene Berzelius bodies boiling point bromine calculated carbon atom chemical change Chemistry chlorine combination composition consequently constituents contain copper Crown 8vo crystallise decomposed decomposition determined diffusion dissociation electricity electrolyte elements equivalent weights ether ethyl example exhibit fact formula freezing point fusible gaseous gases hydrochloric acid hydrogen atoms hydroxyl increases investigated iodide iodine ions isomeric isomorphous kinetic liquid malic acid melting point metals method mixture molecular weight molecules monovalent monovalent atoms nature nitrogen number of atoms number of particles obtained organic compounds oxide oxygen phenomena polyvalent atom potassium pressure produced properties proportion quantity replaced represented salt similar solid solution specific heat stœchiometric substances sulphate sulphur takes place Tellurium temperature theory thermic equivalent tion values velocity volatile weight of hydrogen weight of oxygen whilst zinc